diff options
Diffstat (limited to 'yardstick/network_services/traffic_profile/ixia_rfc2544.py')
-rw-r--r-- | yardstick/network_services/traffic_profile/ixia_rfc2544.py | 200 |
1 files changed, 175 insertions, 25 deletions
diff --git a/yardstick/network_services/traffic_profile/ixia_rfc2544.py b/yardstick/network_services/traffic_profile/ixia_rfc2544.py index 35038891b..ca45b500d 100644 --- a/yardstick/network_services/traffic_profile/ixia_rfc2544.py +++ b/yardstick/network_services/traffic_profile/ixia_rfc2544.py @@ -1,4 +1,4 @@ -# Copyright (c) 2016-2017 Intel Corporation +# Copyright (c) 2016-2019 Intel Corporation # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. @@ -28,7 +28,6 @@ class IXIARFC2544Profile(trex_traffic_profile.TrexProfile): UPLINK = 'uplink' DOWNLINK = 'downlink' DROP_PERCENT_ROUND = 6 - RATE_ROUND = 5 STATUS_SUCCESS = "Success" STATUS_FAIL = "Failure" @@ -36,6 +35,7 @@ class IXIARFC2544Profile(trex_traffic_profile.TrexProfile): super(IXIARFC2544Profile, self).__init__(yaml_data) self.rate = self.config.frame_rate self.rate_unit = self.config.rate_unit + self.iteration = 0 self.full_profile = {} def _get_ip_and_mask(self, ip_range): @@ -146,12 +146,16 @@ class IXIARFC2544Profile(trex_traffic_profile.TrexProfile): return result - def _ixia_traffic_generate(self, traffic, ixia_obj): + def _ixia_traffic_generate(self, traffic, ixia_obj, traffic_gen): ixia_obj.update_frame(traffic, self.config.duration) ixia_obj.update_ip_packet(traffic) ixia_obj.update_l4(traffic) + self._update_traffic_tracking_options(traffic_gen) ixia_obj.start_traffic() + def _update_traffic_tracking_options(self, traffic_gen): + traffic_gen.update_tracking_options() + def update_traffic_profile(self, traffic_generator): def port_generator(): for vld_id, intfs in sorted(traffic_generator.networks.items()): @@ -176,25 +180,34 @@ class IXIARFC2544Profile(trex_traffic_profile.TrexProfile): self.max_rate = self.rate self.min_rate = 0.0 else: - self.rate = round(float(self.max_rate + self.min_rate) / 2.0, - self.RATE_ROUND) + self.rate = self._get_next_rate() + self.iteration = traffic_generator.rfc_helper.iteration.value traffic = self._get_ixia_traffic_profile(self.full_profile, mac) - self._ixia_traffic_generate(traffic, ixia_obj) + self._ixia_traffic_generate(traffic, ixia_obj, traffic_generator) return first_run + # pylint: disable=unused-argument def get_drop_percentage(self, samples, tol_min, tolerance, precision, - first_run=False): + resolution, first_run=False, tc_rfc2544_opts=None): completed = False - drop_percent = 100 + drop_percent = 100.0 num_ifaces = len(samples) duration = self.config.duration in_packets_sum = sum( - [samples[iface]['in_packets'] for iface in samples]) + [samples[iface]['InPackets'] for iface in samples]) out_packets_sum = sum( - [samples[iface]['out_packets'] for iface in samples]) + [samples[iface]['OutPackets'] for iface in samples]) + in_bytes_sum = sum( + [samples[iface]['InBytes'] for iface in samples]) + out_bytes_sum = sum( + [samples[iface]['OutBytes'] for iface in samples]) rx_throughput = round(float(in_packets_sum) / duration, 3) tx_throughput = round(float(out_packets_sum) / duration, 3) + # Rx throughput in Bps + rx_throughput_bps = round(float(in_bytes_sum) / duration, 3) + # Tx throughput in Bps + tx_throughput_bps = round(float(out_bytes_sum) / duration, 3) packet_drop = abs(out_packets_sum - in_packets_sum) try: @@ -217,19 +230,23 @@ class IXIARFC2544Profile(trex_traffic_profile.TrexProfile): else: completed = True + last_rate = self.rate + next_rate = self._get_next_rate() + if abs(next_rate - self.rate) < resolution: + LOG.debug("rate=%s, next_rate=%s, resolution=%s", self.rate, + next_rate, resolution) + # stop test if the difference between the rate transmission + # in two iterations is smaller than the value of the resolution + completed = True + LOG.debug("tolerance=%s, tolerance_precision=%s drop_percent=%s " "completed=%s", tolerance, precision, drop_percent, completed) - latency_ns_avg = float( - sum([samples[iface]['Store-Forward_Avg_latency_ns'] - for iface in samples])) / num_ifaces - latency_ns_min = float( - sum([samples[iface]['Store-Forward_Min_latency_ns'] - for iface in samples])) / num_ifaces - latency_ns_max = float( - sum([samples[iface]['Store-Forward_Max_latency_ns'] - for iface in samples])) / num_ifaces + latency_ns_avg = float(sum( + [samples[iface]['LatencyAvg'] for iface in samples])) / num_ifaces + latency_ns_min = min([samples[iface]['LatencyMin'] for iface in samples]) + latency_ns_max = max([samples[iface]['LatencyMax'] for iface in samples]) samples['Status'] = self.STATUS_FAIL if round(drop_percent, precision) <= tolerance: @@ -237,10 +254,15 @@ class IXIARFC2544Profile(trex_traffic_profile.TrexProfile): samples['TxThroughput'] = tx_throughput samples['RxThroughput'] = rx_throughput + samples['TxThroughputBps'] = tx_throughput_bps + samples['RxThroughputBps'] = rx_throughput_bps samples['DropPercentage'] = drop_percent - samples['latency_ns_avg'] = latency_ns_avg - samples['latency_ns_min'] = latency_ns_min - samples['latency_ns_max'] = latency_ns_max + samples['LatencyAvg'] = latency_ns_avg + samples['LatencyMin'] = latency_ns_min + samples['LatencyMax'] = latency_ns_max + samples['Rate'] = last_rate + samples['PktSize'] = self._get_framesize() + samples['Iteration'] = self.iteration return completed, samples @@ -264,12 +286,140 @@ class IXIARFC2544PppoeScenarioProfile(IXIARFC2544Profile): self.full_profile.update({downlink: self.params[downlink]}) def update_traffic_profile(self, traffic_generator): + + networks = collections.OrderedDict() + + # Sort network interfaces pairs + for i in range(len(traffic_generator.networks)): + uplink = '_'.join([self.UPLINK, str(i)]) + downlink = '_'.join([self.DOWNLINK, str(i)]) + if uplink in traffic_generator.networks: + networks[uplink] = traffic_generator.networks[uplink] + if downlink in traffic_generator.networks: + networks[downlink] = traffic_generator.networks[downlink] + def port_generator(): - for vld_id, intfs in sorted(traffic_generator.networks.items()): - if not vld_id.startswith((self.UPLINK, self.DOWNLINK)): - continue + for intfs in networks.values(): for intf in intfs: yield traffic_generator.vnfd_helper.port_num(intf) self._get_flow_groups_params() self.ports = [port for port in port_generator()] + + def _get_prio_flows_drop_percentage(self, stats): + drop_percent = 100 + for prio_id in stats: + prio_flow = stats[prio_id] + sum_packet_drop = abs(prio_flow['OutPackets'] - prio_flow['InPackets']) + try: + drop_percent = round( + (sum_packet_drop / float(prio_flow['OutPackets'])) * 100, + self.DROP_PERCENT_ROUND) + except ZeroDivisionError: + LOG.info('No traffic is flowing') + prio_flow['DropPercentage'] = drop_percent + return stats + + def _get_summary_pppoe_subs_counters(self, samples): + result = {} + keys = ['SessionsUp', + 'SessionsDown', + 'SessionsNotStarted', + 'SessionsTotal'] + for key in keys: + result[key] = \ + sum([samples[port][key] for port in samples + if key in samples[port]]) + return result + + def get_drop_percentage(self, samples, tol_min, tolerance, precision, + resolution, first_run=False, tc_rfc2544_opts=None): + completed = False + sum_drop_percent = 100 + num_ifaces = len(samples) + duration = self.config.duration + last_rate = self.rate + priority_stats = samples.pop('priority_stats') + priority_stats = self._get_prio_flows_drop_percentage(priority_stats) + summary_subs_stats = self._get_summary_pppoe_subs_counters(samples) + in_packets_sum = sum( + [samples[iface]['InPackets'] for iface in samples]) + out_packets_sum = sum( + [samples[iface]['OutPackets'] for iface in samples]) + in_bytes_sum = sum( + [samples[iface]['InBytes'] for iface in samples]) + out_bytes_sum = sum( + [samples[iface]['OutBytes'] for iface in samples]) + rx_throughput = round(float(in_packets_sum) / duration, 3) + tx_throughput = round(float(out_packets_sum) / duration, 3) + # Rx throughput in Bps + rx_throughput_bps = round(float(in_bytes_sum) / duration, 3) + # Tx throughput in Bps + tx_throughput_bps = round(float(out_bytes_sum) / duration, 3) + sum_packet_drop = abs(out_packets_sum - in_packets_sum) + + try: + sum_drop_percent = round( + (sum_packet_drop / float(out_packets_sum)) * 100, + self.DROP_PERCENT_ROUND) + except ZeroDivisionError: + LOG.info('No traffic is flowing') + + latency_ns_avg = float(sum( + [samples[iface]['LatencyAvg'] for iface in samples])) / num_ifaces + latency_ns_min = min([samples[iface]['LatencyMin'] for iface in samples]) + latency_ns_max = max([samples[iface]['LatencyMax'] for iface in samples]) + + samples['TxThroughput'] = tx_throughput + samples['RxThroughput'] = rx_throughput + samples['TxThroughputBps'] = tx_throughput_bps + samples['RxThroughputBps'] = rx_throughput_bps + samples['DropPercentage'] = sum_drop_percent + samples['LatencyAvg'] = latency_ns_avg + samples['LatencyMin'] = latency_ns_min + samples['LatencyMax'] = latency_ns_max + samples['Priority'] = priority_stats + samples['Rate'] = last_rate + samples['PktSize'] = self._get_framesize() + samples['Iteration'] = self.iteration + samples.update(summary_subs_stats) + + if tc_rfc2544_opts: + priority = tc_rfc2544_opts.get('priority') + if priority: + drop_percent = samples['Priority'][priority]['DropPercentage'] + else: + drop_percent = sum_drop_percent + else: + drop_percent = sum_drop_percent + + if first_run: + completed = True if drop_percent <= tolerance else False + if (first_run and + self.rate_unit == tp_base.TrafficProfileConfig.RATE_FPS): + self.rate = float(out_packets_sum) / duration / num_ifaces + + if drop_percent > tolerance: + self.max_rate = self.rate + elif drop_percent < tol_min: + self.min_rate = self.rate + else: + completed = True + + next_rate = self._get_next_rate() + if abs(next_rate - self.rate) < resolution: + LOG.debug("rate=%s, next_rate=%s, resolution=%s", self.rate, + next_rate, resolution) + # stop test if the difference between the rate transmission + # in two iterations is smaller than the value of the resolution + completed = True + + LOG.debug("tolerance=%s, tolerance_precision=%s drop_percent=%s " + "completed=%s", tolerance, precision, drop_percent, + completed) + + samples['Status'] = self.STATUS_FAIL + if round(drop_percent, precision) <= tolerance: + samples['Status'] = self.STATUS_SUCCESS + + return completed, samples |